Blue Physics

Blue Physics is proud to introduce a groundbreaking dosimetry platform that harnesses the power of plastic scintillating detectors to deliver unparalleled performance in even the most challenging QA scenarios. Our disruptive technology is based on multiple plastic scintillator detectors (PSDs) that are water equivalent, angle and energy independent, non perturbing and extremely accurate.. Model 11 offers multiple detectors - our new model supports up to 4 detectors for conventional LINAC and up to 8 detectors for Protons and Heavy Ions. Time-Resolved Dosimetry: Precisely measure dose in dynamic environments, such as motion-managed or gated treatments (including adaptive MR-LINAC). Small Field & Multi-Met Dosimetry: Achieve accurate dose assessment in complex treatment plans involving small fields and heterogeneous materials. Ultra-High Dose Rate Modalities: Confidently measure dose per pulse, average dose rate, and integrated dose in ultra-high dose rate environments. Visit us at AAPM Booth #642 or let's connect for a personalized consultation.

Excited to share that we're embarking on a new series exploring the diverse dosimetry applications of the Blue Physics Model 11. This cutting-edge model has the potential to revolutionize how we approach quality assurance in radiation therapy. In our upcoming posts, we'll delve into specific use cases, including: Beam Modeling and Characterization: How Model 11 enhances our understanding of beam properties, leading to more accurate dose calculations and treatment planning. Machine Learning Integration: Exploring the synergy between Model 11 and machine learning algorithms for predictive modeling and real-time optimization. Novel Measurement Techniques: Showcasing innovative methods enabled by Model 11, such as multi-energy linac measurements and automated QA workflows. Real-World Experiences: Sharing our first-hand experiences and lessons learned while measuring different linacs using Model 11. We believe that the Blue Physics Model 11 represents a significant leap forward in QA, and we're eager to share our findings with the radiotherapy community. Stay tuned for our upcoming posts and join us on this exciting journey of discovery! #BluePhysicsModel11 #LinacQA #RadiationTherapy #MedicalPhysics #RadOnc

We are proud to announce the publication of "Computational and Experimental Small Field Dosimetry Using a Commercial Plastic Scintillator Detector for the 0.35 T MR-linac" in Physica Medica, European Journal of Medical Physics by Ahtesham Ullah Khan, Indra J. Das, Poonam Yadav. This research demonstrates our commitment to advancing radiotherapy technology. Blue Physics has developed a novel approach to small field dosimetry in the challenging environment of a 0.35 T MR-linac. By leveraging a commercial plastic scintillator detector and combining computational modeling with experimental validation, we've achieved a significant step towards improving treatment accuracy and precision for cancer patients. This publication is a testament to Blue Physics' dedication to innovation and collaboration. We're excited to share our findings with the scientific community and explore the potential impact on cancer care. Read the full paper here: https://lnkd.in/e_-gSf_m #BluePhysics #MRlinac #dosimetry #radiotherapy #innovation #medicalphysics #cancercare Let's connect and discuss how Blue Physics can empower your radiotherapy practice with cutting-edge solutions.

"The Response of Radiation Detectors in Modulated Fields for Small Targets" underscores the critical need for accurate dosimetry in modern radiation therapy, especially for small targets where precision is paramount. This is precisely where Blue Physics' innovative technology shines. Their multiple plastic scintillator detectors offer a water-equivalent, angle and energy independent solution for QA in radiation therapy. By enabling faster data collection, automated analysis, and even remote monitoring, Blue Physics is poised to transform how we ensure the safety and efficacy of radiation treatments, particularly for challenging cases involving small targets. #BluePhysics #radiationtherapy #dosimetry #QA #oncology #medicalphysics #innovation

It was a pleasure delivering the Blue Physics Model 11 for Baozhou Sun at Baylor St Luke's, Houston, TX. Following installation and training, we used BlueSmallField application to center and measure width of each field as recommended by TRS 483 and calculate output factors for their Varian Edge. #bluephysics #baylor #BlueSmallField #TRS483

We are excited to announce the publication of paper titled "Influence of Magnetic Fields on a Scintillation Dosimeter" in the Journal of Applied Clinical Medical Physics. This paper investigates the impact of magnetic fields on the response of a scintillation dosimeter, specifically the Blue Physics model 10. Our findings demonstrate that the dosimeter is well-suited for relative dosimetry applications within the context of MR-linacs. We believe this research holds significant implications for the field of radiation oncology, particularly in the realm of MR-guided radiotherapy. Our findings pave the way for more accurate and reliable dosimetry measurements during MR-guided radiotherapy procedures, ultimately contributing to enhanced patient care. Access the full paper here: https://lnkd.in/eQcGRiZr #scintillationdosimeter #magneticfields #dosimetry #MRlinac #radiationoncology

We are thrilled to announce the publication of our latest research paper: "Characteristics of a Plastic Scintillation Detector in Photon Beam Dosimetry" in The Journal of Applied Clinical Medical Physics. Key Highlights: Our study introduces the innovative Blue Physics Plastic Scintillating Detector (BP-PSD), a game-changer in small-field dosimetry for photon beams. The BP-PSD stands out with its ability to accurately measure data pulse by pulse - a rare capability in this field. Our comprehensive tests reveal that the BP-PSD's performance is highly comparable to the traditional ion chamber, especially in small-field applications, and requires no additional correction factors. This breakthrough has significant implications for enhancing accuracy and efficiency in radiation therapy. The BP-PSD's precision and reliability make it an invaluable tool for clinicians and researchers alike. A big thank you to the brilliant team behind this research: Indra J. Das, Jooyoung J. Sohn, Sara N. Lim, Bishwambhar Sengupta, Marcos Feijoo, and Poonam Yadav for their dedication and innovation. Read the full paper here: https://lnkd.in/ewxhJgD2 #MedicalPhysics #Innovation #RadiationTherapy #Dosimetry #Research #HealthcareTechnology

It was a pleasure visiting with Mike Talhammer, Justin Keener, Anton Eagle and David Powers at AdventHealth, Littleton, CO. We measured small fields on ZAP-X and demonstrated BlueUltraFast scanning on their Varian TrueBeam with our Blue Physics plastic scintillating detector. #bluephysics #adventhealth #BlueUltraFast

It was a pleasure visiting with David Barbee at NYU Langone Health. We demonstrated real time dosimetry on a Varian TrueBeam with our Blue Physics plastic scintillating detector

It was a pleasure visiting with Kenneth Bernstein at NYU Langone Health. We demonstrated real time dosimetry on a Gamma Knife Icon with our Blue Physics plastic scintillating detector. #bluephysics #gammaknife #NYULangoneHealth